Medical dressing assembly and associated method of using the same

ABSTRACT

A medical dressing assembly and associated method of using the same comprising an isolating member, a member for controllably inputting matter and a member for controllably exhausting matter. The isolating member is capable of isolating an affected area of a patient from an external environment. The isolating member includes a patient engaging strap member and a cover member. The patient engaging strap member includes a bottom surface which is positionable so as to be substantially internally facing. The cover member extends away from the patient engaging member. The cover member defines a volume wherein the patient engaging strap member provides access to the volume. The bottom surface of the at least one patient engaging strap member is capable of engaging a portion of the patient, to, in turn, substantially confine at least a portion of the affected area of a patient within the volume defined by the cover member. The member for controllably inputting matter controllably inputs matter into the volume. The member for controllably exhausting matter controllably exhausts matter from the volume.

BACKGROUND OF THE INVENTION

1. Field of the Invention

The present invention relates in general to a medical dressing assembly,and more particularly, to a medical dressing assembly which, among otherthings, isolates an affected area of a patient, such as a burn,incision, abrasion, and/or other abnormality, without contacting thesame. The present invention further relates to an associated method ofusing such a medical dressing assembly.

2. Background Art

Medical dressings have been known in the art for years. Moreover,treating an affected area of a patient with a medical dressing incooperation with medication is likewise well known in the art. Indeed,conventionally an affected area of a patient is cleansed, coated withmedical ointment, and subsequently wrapped in a bandage or gauze likematerial, which directly contacts the affected area. In addition,certain types of affected areas require that the patient be givenmedication internally, such as one or more antibiotics for treatingprimary and/or secondary bacterial infections, pain killers and/ortranquilizers for treating pain and/or traumatic anxiety. While treatingan affected area of a patient using the above-identified conventionalmedical dressings have become common in today's medical practice, suchuse remains largely problematic for several reasons.

A first problem associated with a conventional medical dressing is that,the dressing must be removed and a fresh dressing must be reapplied on aregular basis so that discharge from the affected area does not stick orcling to the affected area. Such a process can be time consuming,cumbersome, and extremely painful, especially for burn patients, if thedressing is not removed and fresh dressing reapplied prior to hardeningor crusting of the discharged matter.

A second problem recognized with the use of a conventional medicaldressing is that the affected area is typically covered with a bandage,thereby substantially precluding air circulation around the affectedarea. Again, for a burn patient, circulation around the affected area ishighly desirous inasmuch as the circulated air provides the patient withsubstantial relief from the “residual burning” sensation, which oftentimes can be extremely painful and persist for an extended period oftime.

A third problem associated with a conventional medical dressing is thatit does not substantially preclude fluid from leaving the affected areaof the patient. As such, the patient can become dehydrated very rapidly,as a result of the fluid loss, especially if the affected area is largeand/or deep. As is well known, dehydration of the patient can lead tomany other serious and sometimes fatal complications.

In addition, a conventional medical dressing also substantiallyprecludes continuous topical application of medication to the affectedareas inasmuch as the affected area is directly covered and/or wrapped.As such, patients are typically administered large quantities ofmedicine either orally or intravenously, many of which have adverse sideeffects, especially at high concentrations. Prolonged administration ofpowerful drugs at high concentration, such as new generationantibiotics, is not optimal inasmuch as the patient can, over time,develop a resistance to the medication, thereby rendering the medicineless effective, and, at times, completely ineffective. Moreover, due tothe concentration requirements of administering medication usingconventional means, a patient may not be able to receive a particularmedicine if an adverse reaction is observed above a particularconcentration.

Furthermore, use of a conventional medical dressing can be problematicwhen a physician or care taker attempts to observe the affected area forhealing or complications because the dressing must be at least partiallyremoved for observation.

Finally, even though a conventional medical dressing covers the affectedarea of the patient, the affected area is not completely isolated fromthe external environment, where harmful airborne contaminants and otherundesirable matter can inadvertently come into contact with the affectedarea and further complicate the healing process.

It is therefore an object of the present invention to provide a medicaldressing assembly that remedies the aforementioned detriments and/orcomplications associated with conventional medical dressings.

These and other objects of the present invention will become apparent inlight of the present specification, claims, and drawings.

SUMMARY OF THE INVENTION

The present invention is directed to a medical dressing assemblycomprising: (a) means for isolating an affected area of a patient froman external environment, wherein placement of the isolation meansdefines a volume surrounding at least a portion of the affected area ofthe patient; (b) means for controllably inputting matter into thevolume; and (c) means for controllably exhausting matter from thevolume.

In a preferred embodiment of the invention, the isolation means isgeometrically configurable into at least one of the group consisting ofa hand dressing, a forearm dressing, an upper arm dressing, a facialdressing, an upper torso dressing, a lower torso dressing, an upper legdressing, a lower leg dressing, a foot and ankle dressing, and mixturesthereof.

In another preferred embodiment of the invention, the isolation meanscomprises: (a) at least one patient engaging member; and (b) a covermember associated with the at least one patient engaging member. In thisembodiment the at least one patient engaging member may comprise apatient engaging base member having an inner peripheral geometry greaterthan the affected area of the patient. Such a patient engaging basemember may be at least partially associated with an adhesive, which ispreferably covered with a protective, peel-away member. Alternatively,the at least one patient engaging member may comprise a patient engagingstrap member, which is optionally adjustable, and may be partiallyassociated with an adhesive, which is preferably covered with aprotective, peel-away member.

In yet another preferred embodiment of the invention, the cover membercan be non-expandable and/or expandable to define a fixed and/orvariable volume, respectively. Preferably the cover member issubstantially transparent, thereby enabling observation of the affectedarea of the patient.

In a preferred embodiment of the invention, the matter inputting meansand/or the matter exhausting means includes at least one of a regulator,a clamp, and a filter for controlling the input/output rate of matterinto/out of the volume.

The medical dressing assembly may also comprise a source for supplying acontrolled gas, such as air, purified air, a noble or inert gas, anoxygen enriched gaseous mixture, oxygen, and mixtures thereof.

In yet another preferred embodiment of the invention, the dressingassembly further comprises one or more of the following: (a) coolingmeans associated with the matter inputting means; (b) at least one of avaporizer or a nebulizer associated with the matter inputting means; (c)filtering means associated with the matter exhausting means; and (d)means for collecting discharge matter from the affected area.

It is also contemplated that the medical dressing assembly of thepresent invention can be pressurizable from approximately ambientpressure to approximately 10 p.s.i.

The present invention is also directed to a medical dressing assemblycomprising: (a) an isolating member, capable of isolating an affectedarea of a patient from an external environment including: (1) at leastone patient engaging member; and (2) a cover member associated with theat least one patient engaging member, wherein placement of the isolatingmember defines a volume surrounding at least a portion of the affectedarea of the patient; (b) at least one input conduit hermeticallyassociated with the isolation member; and (c) at least one exhaustconduit hermetically associated with the isolation member.

The present invention is further directed to a method of dressing anaffected area of a patient comprising the steps of: (a) providing amedical dressing assembly including: (1) an isolating member having atleast one patient engaging member and a cover member associated with theisolating member; (2) at least one input conduit; and (3) an exhaust;(b) operatively securing the isolating member associated with the covermember onto the patient so that at least a portion of the affected areaof the patient is isolated from an external environment; (c) supplyingmatter into the medical dressing assembly through the at least one inputconduit; and (d) venting matter from the exhaust into an externalenvironment.

BRIEF DESCRIPTION OF THE DRAWINGS

The invention will now be described with reference to the drawingswherein:

FIG. 1A of the drawings is a fragmented perspective view of a medicaldressing assembly in accordance with the present invention;

FIG. 1B of the drawings is a side elevational view of a medical dressingassembly in accordance with the present invention;

FIGS. 2A-2I of the drawings are perspective views of various geometricalconfigurations of medical dressing assemblies fabricated in accordancewith the present invention; and

FIG. 3 of the drawings is a perspective view of a medical dressingassembly in accordance with the present invention.

DETAILED DESCRIPTION OF THE INVENTION

While this invention is susceptible of embodiment in many differentforms, there is shown in the drawings and described herein in detailseveral specific embodiments with the understanding that the presentdisclosure is to be considered as an exemplification of the principlesof the invention and is not intended to limit the invention to theembodiments illustrated.

It will be understood that like or analogous elements and/or components,referred to herein, are identified throughout the drawings by likereference characters.

Referring now to the drawings, and to FIG. 1A in particular, aperspective schematic representation of medical dressing 10 is shown,which generally comprises means 12 for isolating an affected area of apatient, such as a burn, incision, abrasion, skin graft, and/or otherabnormality, from an external environment, wherein placement ofisolation means 12 defines a volume 14 (FIG. 1B) surrounding at least aportion of an affected area of a patient, means 16 for controllablyinputting matter into the volume; and means 18 for controllablyexhausting matter from the volume. It will be understood that FIG. 1A ismerely a schematic representation of medical dressing assembly 10. Assuch, some of the components have been distorted from their actual scalefor pictorial clarity.

For purposes of the present disclosure, isolation means 12 of medicaldressing assembly 10 may include a patient engaging base member 20 and acover member 22 hermetically associated therewith. Preferably patientengaging base member 20 includes an inner peripheral geometry greaterthan the affected area of the patient. As is further shown in FIG. 1A,the underside of patient engaging base member 20 may be at leastpartially associated with adhesive 24. Although not necessary, adhesive24 is preferably fabricated from a hypoallergenic material so as tominimize any irritation surrounding the affected area of the patient. Inaddition, adhesive 24 may be covered, in whole or in part, with aprotective, peel-away member 25 (FIG. 1B)—similar to those associatedwith the backing of a conventional band-aid. It will be understood thatpatient engaging base member is preferably fabricated from a conformablematerial such as a natural and synthetic polymeric resins and/orcomposites which are well known in the art. While preferred fabricationmaterials have been disclosed, for illustrative purposes only, numerousother materials are likewise contemplated for use including metals,ceramics, as well as commercially available double sided tape.

For purposes of the present disclosure, cover member 22 is expandable,which as will be discussed in greater detail below, enables volume 14 tovary depending upon, among other things, this thickness of cover member22 as well as internal pressure within volume 14. Alternatively, covermember 22 may be fabricated from a non-expandable material, whichenables volume 14 to remain constant during treatment of the affectedarea. Cover member 22 is preferably substantially transparent so as toenable observation of the affected area of the patient. Additionally, itis desirous for volume 14 to be pressurizable from approximately ambientpressure to approximately 10 pounds per square inch. Such pressurizationcan substantially preclude the patient from becomingdehydrated—especially when the affected area of the patient is ratherlarge where discharge matter and fluid loss can rapidly occur. While apreferred pressure range has been disclosed, for illustrative purposesonly, it will be understood that such a requisite pressure will varyfrom injury to injury, and that the only limitation relative topressurizing volume 14 is that the pressure must be substantial enoughto reduce dehydration of the affected area, and, in turn, the patient.Cover member 22 may be fabricated from any one of a number of materials,however, expandable latex type materials are preferred.

As is best shown in FIGS. 2A-2I, medical dressing assembly 10, may beconfigured into any one of a number of geometric configurationsincluding those conforming to, for example, a hand dressing (FIG. 2A), aforearm dressing (FIG. 2B), an upper arm dressing (FIG. 2C), a facialdressing (FIG. 2D), an upper torso dressing (FIG. 2E), a lower torsodressing (FIG. 2F), an upper leg dressing (FIG. 2G), a lower legdressing (FIG. 2H), a foot and ankle dressing (FIG. 2I). In suchembodiments, medical dressing assembly 10 may include one or morepatient engaging strap member(s) 26.

Patient engaging strap members 26 serve to effectively seal off theaffected area of a patient from the external environment, and may befabricated from any one of a number of materials including, natural andsynthetic polymeric resins and/or composites. Preferably patientengaging strap member 26 is adjustable for adaptation to numerousdifferent sized patients. Although not necessary, either one or both ofthe top surface or bottom surface of patient engaging strap member 26can be at least partially coated with an adhesive, which may or may notbe hypoallergenic. Similarly to the underside of patient engaging basemember 20 of FIG. 1A, the underside of patient engaging strap member 26may also include an adhesive covered with a protective, peel-awaymember. Alternatively, patient engaging strap member 26 may include atie-securing mechanism and/or hook and loop securing mechanism, such asVELCRO—which is commercially available from numerous sources.

As is best shown in FIG. 1A and FIGS. 2A-2I, matter inputting means 16may comprise one or more conduit(s) 28. Conduits 28 are preferablyhermetically associated with isolation means 12, and in particular, atleast one of patient engaging base member 20, patient engaging strapmember 26, and/or cover member 22. Conduits 28 are preferably directlyconnected to isolation means 12 by connectors 30. Connectors 30 maycomprise any one of a number of configurations that would be known toone having ordinary skill in the art—so long as the particular connectoris capable of forming a substantially hermetic seal. It will beunderstood that while connectors 30 have been shown in particularlocations, numerous other locations are contemplated in accordance withthe present invention. It will be further understood that conduits 28may be configured with various internal and/or external diameters.

In accordance with the present invention, and as is best shown in FIG.1A, matter input means 16 can be routed from a single input to multipleinputs by a splitter 32, which allows matter to be introduced intovolume 14 at multiple predetermined locations.

As is shown in FIG. 3, matter input means 16 may be associated with oneor more matter input rate regulating means 46, such as, for example, apressure regulator, a clamp for pinching or narrowing associated conduit28, or a filter which, in addition to removing undesired matter frommatter input means 16, can optionally serve as a mechanism forregulating the matter input rate depending upon, among other things, thethickness and porosity of the filter.

As is best shown in FIG. 1A and FIGS. 2A-2I, matter exhaust means 18 maycomprises one or more conduit(s) 28. Similar to matter input means 16,one or more conduit(s) 28 are preferably hermetically associated withisolation means 12, and in particular, at least one of patient engagingbase member 20, patient engaging strap member 26, and/or cover member22. Conduits 28 are preferably directly connected to isolation means 12by connector 30. Connector 30 may comprise any one of a number ofconfigurations that would be known to one having ordinary skill in theart—so long as the particular connector is capable of forming asubstantially hermetic seal. While matter exhausting means 18 has beendisclosed, for illustrative purposes only, as comprising one or moreconduits 28, it will be understood that matter exhausting means 18 mayalso, or, alternatively comprise one or more apertures associated withisolation means 12 of a predetermined size.

Referring again to FIG. 3, matter exhaust means 18 may be associatedwith one or more matter exhaust rate regulating means 48, such as, forexample, a pressure regulator, a clamp for pinching or narrowingassociated conduit 28, or a filter which, in addition to removingundesired matter from matter exhaust means 18, can optionally serve as amechanism for regulating the matter exhaust rate depending upon, amongother things, the thickness and porosity of the filter.

As is shown in FIG. 3, medical dressing assembly 10 preferably comprisesa source 38 for supplying a controlled gas. It will be understood thatthe particular controlled gas used in association with medical assembly10 will vary from application to application, however, preferredcontrolled gas sources include air, purified air, a noble or inert gas,an oxygen enriched gaseous mixture, oxygen, and mixtures thereof.

Referring again to FIG. 3, medical dressing assembly 10 may optionallybe associated with means 40 for cooling matter inputting means 16. Suchcooling means may include, for example, a container filled with ice, icewater, water or other cold matter, upon which matter inputting means 16can be dipped or otherwise associated with. In addition, other coolingmeans are contemplated for use in association with the presentinvention, including refrigerated containers. Of course, the type ofcooling means will varying depending upon the particular situation. Forexample, a patient confined in a hospital type setting may be afforded acontrolled, refrigerated container, while a field patient, such as asoldier, may be merely afforded crushable cold packs which are placedaround matter input means 16.

As is also shown in FIG. 3, medical dressing assembly 10 may optionallycomprise medication delivery means 42, such as a vaporizer or anebulizer associated with matter inputting means 16. Such a feature ishighly desirous inasmuch as most medications are administered in largequantities via oral introduction or intravenous introduction. Inaccordance with the present invention, medicine can be vaporized and/ornebulized and subsequently introduced into matter input means 16, whichis directly, topically applied to the affected area in a substantiallylower concentration that the conventional, above-identified medicationadministration means. Using such an embodiment enables a patient toreceive only as much medication as is necessary to treat the affectedarea, which can substantially prolong, or, in some cases, eliminate thetime period before the patient builds up a resistance to the medication.In addition, because the concentration of the drug can be substantiallyreduced, many adverse side effects associated with powerful healingand/or pain relieving medications can be minimized or, alternatively,outright eliminated. To be sure, such an improvement in medicationadministration to affected areas has enormous beneficial consequences.

In a preferred embodiment, and as is shown in FIG. 3, medical dressingassembly 10 may optionally comprise means 44 for collecting dischargematter from the affected area of a patient. Discharge collection means44 preferably functions as a gravity drain through an aperture 50associated with isolation means 12. Conduit 28 is preferably attached toaperture 50 through connector 30, which assists in directing dischargematter to a predetermined location. Although not shown, dischargecollection means 44 can also be associated with a suction mechanism toexpedite removal of unwanted discharge from the affected area.

In operation, medical dressing assembly 10, which includes an isolatingmember having at least one patient engaging member and a cover memberassociated therewith, at least one input conduit, and an exhaust isplaced on the patient, thereby operatively securing the isolating memberonto the patient so that at least a portion of an affected area of apatient is isolated from an external environment. Second, matter such asa controlled gas and/or medication is supplied into the medical dressingassembly through the at least one input conduit, which builds pressurewithin volume 14 (FIG. 1B). Third matter retained within volume 14 isexhausted into the external environment. It will be understood that therate of exhaust is preferably configured to be less than the input rateof matter so that the system maintains a positive internal pressure tosubstantially preclude matter from the external environment fromentering volume 14, and, in turn, the affected area of the patient.

Preferably the above-identified method further comprises at least one ofthe following steps: cooling the matter prior to the step of supplyingmatter into the medical dressing assembly, and introducing vaporized ornebulized medication into the medical dressing assembly through thematter input means, and, in turn, applying the medication to thelocalized, affected area of the patient.

Although not necessary, the step of venting matter from the exhaust intothe external environment may include the step of filtering the matterprior to venting the exhaust into the external environment.

Using medical dressing assembly 10 avails the patient having an affectedarea numerous benefits including: (1) the isolation means substantiallyprecludes matter from the external environment from contacting theaffected area of the patient; (2) the controlled input of matter, suchas oxygen, can substantially eliminate the residual “burning sensation”felt by burn patients; (3) the dressing assembly does not directlycontact the affected area thereby further mitigating pain associatedwith the affected area relative to conventional medical dressings; (4)the pressure within the volume of the medical dressing assemblysubstantially precludes fluid loss and the complications associated withdehydration; (5) the affected area is readily observable, therebyenabling a physician or care taker to examiner the affected area withoutdisturbing the medical dressing assembly; (6) the matter input meansgenerates a flow of gas, thereby properly circulating the affected areaand reducing both pain as well as the associated healing time and; (7)the application of medication is topically localized, whichsubstantially reduces the concentration of the medication, therebyprolonging associated resistances as well as minimizing any adverse sideeffects. In addition, under certain circumstances, the concentration ofthe medication may be low enough so that a patient that would otherwisehave an adverse allergic reaction can be administered a particularmedication.

The foregoing description merely explains and illustrates the inventionand the invention is not limited thereto except insofar as the appendedclaims are so limited, as those skilled in the art who have thedisclosure before them will be able to make modifications withoutdeparting from the scope of the invention.

What is claimed is:
 1. A medical dressing assembly, comprising: meansfor isolating an affected area of a patient from an external environmentincluding: at least one patient engaging strap member, the at least onepatient engaging strap member having a bottom surface positionable so asto be substantially internally facing; and a cover member extending awayfrom the at least one patient engaging strap member, the cover memberdefining a volume, the at least one patient engaging strap memberproviding access to the volume, wherein the bottom surface of the atleast one patient engaging strap member is capable of engaging a portionof the patient, to, in turn, substantially confine at least a portion ofthe affected area of a patient within the volume defined by the covermember; means for controllably inputting matter into said volume; andmeans for controllably exhausting matter from said volume.
 2. Themedical dressing assembly according to claim 1, wherein said isolationmeans is geometrically configurable into at least one of the groupconsisting of a hand dressing, a forearm dressing, an upper armdressing, a facial dressing, an upper torso dressing, a lower torsodressing, an upper leg dressing, a lower leg dressing, a foot and ankledressing, and mixtures thereof.
 3. The medical dressing assemblyaccording to claim 1, wherein said patient engaging strap memberincludes means for adjusting the circumference of the internally facingbottom surface.
 4. The medical dressing assembly according to claim 3,wherein said patient engaging strap member includes an adhesivepositioned along at least a portion of the internally facing bottomsurface.
 5. The medical dressing assembly according to claim 4, whereinsaid adhesive is covered with a protective, peel-away member.
 6. Themedical dressing assembly according to claim 1, wherein said covermember comprises a flexible material to, in turn, facilitate a variationof the volume of the cover member.
 7. The medical dressing assemblyaccording to claim 6, wherein said cover member is substantiallytransparent, thereby enabling observation of said affected area of saidpatient.
 8. The medical dressing assembly according to claim 1, whereinsaid cover member comprises a substantially rigid material, therebydefining a substantially fixed volume.
 9. The medical dressing assemblyaccording to claim 8, wherein said cover member is substantiallytransparent, thereby enabling observation of said affected area of saidpatient.
 10. The medical dressing assembly according to claim 1, whereinsaid matter inputting means comprises at least one conduit hermeticallyassociated with said isolation means.
 11. The medical dressing assemblyaccording to claim 1, wherein said matter inputting means comprises twoconduits hermetically associated with said isolation means.
 12. Themedical dressing assembly according to claim 1, wherein said matterinputting means is associated with at least one of a regulator, a clamp,and a filter for controlling the input rate of matter into said volume.13. The medical dressing assembly according to claim 1, wherein saidmatter exhausting means comprises at least one aperture associated withsaid isolation means.
 14. The medical dressing assembly according toclaim 1, wherein said matter exhausting means comprises at least oneconduit hermetically associated with said isolation means.
 15. Themedical dressing assembly according to claim 1, wherein said matterexhausting means is associated with at least one of a regulator, aclamp, and a filter for controlling the exhaust rate of matter out ofsaid volume.
 16. The medical dressing assembly according to claim 1,further comprising a source for supplying a controlled gas, thecontrolled gas supplying source positioned in fluid communication withthe controllable matter inputting means, to, in turn, supply acontrolled gas to the volume.
 17. The medical dressing assemblyaccording to claim 16, wherein said controlled gas is selected from thegroup consisting of air, purified air, a noble or inert gas, an oxygenenriched gaseous mixture, oxygen, and mixtures thereof.
 18. The medicaldressing assembly according to claim 1, further comprising cooling meanspositioned proximate to said matter inputting means, the cooling meansstructurally configured to decrease the temperature of the matterinputting means and matter extending therethrough.
 19. The medicaldressing assembly according to claim 1, further comprising at least oneof a vaporizer or nebulizer positioned in fluid communication with saidmatter inputting means.
 20. The medical dressing assembly according toclaim 1, further comprising filtering means positioned in fluidcommunication with said matter exhausting means.
 21. The medicaldressing assembly according to claim 1, further comprising means forcollecting discharge matter from said affected area.
 22. The medicaldressing assembly according to claim 1, wherein the controllable matterinputting means and the controllable matter exhausting means areconfigured so as to maintain the volume at a greater pressure thanambient.
 23. The medical dressing assembly according to claim 22,wherein the controllable matter inputting means and the controllablematter exhausting means are configured so as to maintain a relativepressure difference between ambient and the volume of at least about 10pounds per square inch.
 24. The medical dressing assembly according toclaim 1 wherein the at least one patient engaging strap member furthercomprises a plurality of patient engaging strap members, each patientengaging strap member having a bottom surface positionable so as to besubstantially internally facing.
 25. The medical dressing assemblyaccording to claim 1 wherein the at least one patient engaging strapmember further comprises at least four patient engaging strap members,each patient engaging strap member having a bottom surface positionableso as to be substantially internally facing.
 26. The medical dressingassembly according to claim 1 wherein the matter comprises at least oneof a gas and a liquid.
 27. A method of dressing an affected area of apatient, comprising the steps of: providing a medical dressing assemblyincluding; an isolating member having at least one patient engagingmember and a cover member associated therewith; at least one inputconduit; and an exhaust; operatively securing said isolating memberassociated with said cover member onto said patient so that at least aportion of said affected area of said patient is isolated from anexternal environment; supplying matter into said medical dressingassembly through said at least one input conduit; venting matter fromsaid exhaust into an external environment; and controlling at least oneof the supplying of matter and the venting of matter, to, in turn,maintain a relative pressure difference between ambient and said medicaldressing assembly due to the supply of matter into said medical dressingassembly.
 28. The method according to claim 27, wherein the step ofoperatively securing said isolating member onto said patient includesthe step of substantially precluding airborne matter from the externalenvironment from contacting said affected area of said patient.
 29. Themethod according to claim 27, wherein the step of supplying matter intosaid medical dressing assembly through said at least one input conduitincludes the step of pressurizing a volume surrounding said affectedarea of said patient.
 30. A method of dressing an affected area of apatient, comprising the steps of: providing a medical dressing assemblyincluding; an isolating member having at least one patient engagingmember and a cover member associated therewith; at least one inputconduit; and an exhaust; operatively securing said isolating memberassociated with said cover member onto said patient so that at least aportion of said affected area of said patient is isolated from anexternal environment; cooling matter for the supply thereof into saidmedical dressing assembly; supplying said matter into said medicaldressing assembly through said at least one input conduit; and ventingmatter from said exhaust into an external environment.
 31. A method ofdressing an affected area of a patient, comprising the steps of:providing a medical dressing assembly including; an isolating memberhaving at least one patient engaging member and a cover memberassociated therewith; at least one input conduit; and an exhaust;operatively securing said isolating member associated with said covermember onto said patient so that at least a portion of said affectedarea of said patient is isolated from an external environment; supplyingmatter into said medical dressing assembly through said at least oneinput conduit; introducing vaporized or nebulized medication into saidmedical dressing assembly through said at least one input conduit, and,in turn, applying said medication to said localized area of saidpatient; and venting matter from said exhaust into an externalenvironment.
 32. A method of dressing an affected area of a patient,comprising the steps of: providing a medical dressing assemblyincluding; an isolating member having at least one patient engagingmember and a cover member associated therewith; at least one inputconduit; and an exhaust; operatively securing said isolating memberassociated with said cover member onto said patient so that at least aportion of said affected area of said patient is isolated from anexternal environment; supplying matter into said medical dressingassembly through said at least one input conduit; filtering said matterafter supply thereof into said medical dressing assembly; and ventingmatter from said exhaust into an external environment.